LEADER 01251nam0 22002771i 450 001 UON00050440 005 20231205102223.678 100 $a20020107d1956 |0itac50 ba 101 $alat 102 $aCS 105 $a||||b ||||| 200 1 $aCharisteria orientalia praecipue ad Persiam pertinentia$fediderunt Felix Tauer, Vera Kubickova, Ivan Hrbek 210 $aPraha$cNakladatelstvi Ceskslovenske Akademie Ved$d1956 215 $a411 p.$d24 cm 620 $aCZ$dPraha$3UONL003201 686 $aIRA GEN D I$cIRAN - STUDI IN ONORE DI - GENERALIA$2A 702 1$aHRBEK$bIvan$3UONV031854 702 1$aKUBICKOVA$bVera$3UONV007416 702 1$aTAUER$bFelix$3UONV018710 712 $aNekladatelestvi Ceskoslovenske Akademie Ved$3UONV253914$4650 801 $aIT$bSOL$c20240220$gRICA 912 $aUON00050440 950 $aSIBA - SISTEMA BIBLIOTECARIO DI ATENEO$dSI DOPPI IRA GEN D I 001 $eSI MR 59462 7 001 950 $aSIBA - SISTEMA BIBLIOTECARIO DI ATENEO$dSI IRA GEN D I 001 $eSI IR 1504 7 001 996 $aCharisteria orientalia praecipue ad Persiam pertinentia$91147902 997 $aUNIOR LEADER 05468nam 22006134a 450 001 9910830878003321 005 20230829000843.0 010 $a1-280-64993-3 010 $a9786610649938 010 $a0-470-85546-0 010 $a0-470-85545-2 035 $a(CKB)1000000000356097 035 $a(EBL)274326 035 $a(OCoLC)476018669 035 $a(SSID)ssj0000120117 035 $a(PQKBManifestationID)11146443 035 $a(PQKBTitleCode)TC0000120117 035 $a(PQKBWorkID)10080909 035 $a(PQKB)11446384 035 $a(MiAaPQ)EBC274326 035 $a(EXLCZ)991000000000356097 100 $a20060215d2006 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aCharge-based MOS transistor modeling$b[electronic resource] $ethe EKV model for low-power and RF IC design /$fChristian C. Enz, Eric A. Vittoz 210 $aChichester, England ;$aHoboken, NJ $cJohn Wiley$dc2006 215 $a1 online resource (329 p.) 300 $aDescription based upon print version of record. 311 $a0-470-85541-X 320 $aIncludes bibliographical references (p. [291]-298) and index. 327 $aCharge-based MOS Transistor Modeling; Contents; Foreword; Preface; List of Symbols; 1 Introduction; 1.1 The Importance of Device Modeling for IC Design; 1.2 A Short History of the EKV MOS Transistor Model; 1.3 The Book Structure; Part I The Basic Long-Channel Intrinsic Charge-Based Model; 2 Definitions; 2.1 The N-channel Transistor Structure; 2.2 Definition of Charges, Current, Potential, and Electric Fields; 2.3 Transistor Symbol and P-Channel Transistor; 3 The Basic Charge Model; 3.1 Poisson's Equation and Gradual Channel Approximation; 3.2 Surface Potential as a Function of Gate Voltage 327 $a3.3 Gate Capacitance3.4 Charge Sheet Approximation; 3.5 Density of Mobile Inverted Charge; 3.5.1 Mobile Charge as a Function of Gate Voltage and Surface Potential; 3.5.2 Mobile Charge as a Function of Channel Voltage and Surface Potential; 3.6 Charge-Potential Linearization; 3.6.1 Linearization of Qi (s); 3.6.2 Linearized Bulk Depletion Charge Qb; 3.6.3 Strong Inversion Approximation; 3.6.4 Evaluation of the Slope Factor; 3.6.5 Compact Model Parameters; 4 Static Drain Current; 4.1 Drain Current Expression; 4.2 Forward and Reverse Current Components; 4.3 Modes of Operation 327 $a4.4 Model of Drain Current Based on Charge Linearization4.4.1 Expression Valid for All Levels of Inversion; 4.4.2 Compact Model Parameters; 4.4.3 Inversion Coefficient; 4.4.4 Approximation of the Drain Current in Strong Inversion; 4.4.5 Approximation of the Drain Current in Weak Inversion; 4.4.6 Alternative Continuous Models; 4.5 Fundamental Property: Validity and Application; 4.5.1 Generalization of Drain Current Expression; 4.5.2 Domain of Validity; 4.5.3 Causes of Degradation; 4.5.4 Concept of Pseudo-Resistor; 4.6 Channel Length Modulation; 4.6.1 Effective Channel Length 327 $a4.6.2 Weak Inversion4.6.3 Strong Inversion; 4.6.4 Geometrical Effects; 5 The Small-Signal Model; 5.1 The Static Small-Signal Model; 5.1.1 Transconductances; 5.1.2 Residual Output Conductance in Saturation; 5.1.3 Equivalent Circuit; 5.1.4 The Normalized Transconductance to Drain Current Ratio; 5.2 A General NQS Small-Signal Model; 5.3 The QS Dynamic Small-Signal Model; 5.3.1 Intrinsic Capacitances; 5.3.2 Transcapacitances; 5.3.3 Complete QS Circuit; 5.3.4 Domains of Validity of the Different Models; 6 The Noise Model; 6.1 Noise Calculation Methods; 6.1.1 General Expression 327 $a6.1.2 Long-Channel Simplification6.2 Low-Frequency Channel Thermal Noise; 6.2.1 Drain Current Thermal Noise PSD; 6.2.2 Thermal Noise Excess Factor Definitions; 6.2.3 Circuit Examples; 6.3 Flicker Noise; 6.3.1 Carrier Number Fluctuations (Mc Worther Model); 6.3.2 Mobility Fluctuations (Hooge Model); 6.3.3 Additional Contributions Due to the Source and Drain Access Resistances; 6.3.4 Total 1/f Noise at the Drain; 6.3.5 Scaling Properties; 6.4 Appendices; Appendix: The Nyquist and Bode Theorems; Appendix: General Noise Expression; 7 Temperature Effects and Matching; 7.1 Introduction 327 $a7.2 Temperature Effects 330 $aModern, large-scale analog integrated circuits (ICs) are essentially composed of metal-oxide semiconductor (MOS) transistors and their interconnections. As technology scales down to deep sub-micron dimensions and supply voltage decreases to reduce power consumption, these complex analog circuits are even more dependent on the exact behavior of each transistor. High-performance analog circuit design requires a very detailed model of the transistor, describing accurately its static and dynamic behaviors, its noise and matching limitations and its temperature variations. The charge-based EKV (Enz 606 $aMetal oxide semiconductors$xMathematical models 606 $aMetal oxide semiconductor field-effect transistors$xMathematical models 615 0$aMetal oxide semiconductors$xMathematical models. 615 0$aMetal oxide semiconductor field-effect transistors$xMathematical models. 676 $a621.3815284 700 $aEnz$b Christian$01339617 701 $aVittoz$b Eric A.$f1938-$0725311 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910830878003321 996 $aCharge-based MOS transistor modeling$94063873 997 $aUNINA LEADER 03515oam 2200661 c 450 001 9910563185803321 005 20250513224743.0 024 7 $a10.3726/b13963 035 $a(CKB)5450000000174114 035 $a(oapen)https://directory.doabooks.org/handle/20.500.12854/31713 035 $a(PH02)9783631754450 035 $a(oapen)doab31713 035 $a(EXLCZ)995450000000174114 100 $a20240525h20182009 uy 0 101 0 $ager 135 $aurnnunnnannuu 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 00$aÖffentlich-private Finanzierung von Infrastruktur in Entwicklungsländern und deren Beitrag zur Armutsreduktion$eFallstudien in Vietnam und auf den Philippinen$fWirtschaftsuniversität Wien, Bianca Gusenbauer 205 $a1st, New ed. 210 $aFrankfurt a.M$cPH02$d2018 210 $d2018, c2009 215 $a1 online resource (314 p.)$c, EPDF 225 0 $aForschungsergebnisse der Wirtschaftsuniversita?t Wien$v29 300 $aPeter Lang GmbH, Internationaler Verlag der Wissenschaften 311 08$a3-631-75445-0 327 $aAus dem Inhalt: Aspekte von Governance in der Entwicklungspolitik - Private Infrastrukturinvestitionen in Entwicklungsla?ndern - O?ffentlich-private Bereitstellung von Infrastruktur - Die Unterstu?tzung von privaten Infrastrukturinvestitionen durch internationale und nationale Finanzinstitutionen. 330 $aDie Dissertation ist an der Schnittstelle von Betriebswirtschaftslehre und Entwicklungso?konomie angesiedelt. Basierend auf einem Multimethodenansatz werden jeweils zwei Fallstudien in Vietnam und auf den Philippinen aus beiden Perspektiven dargestellt. Der entwicklungso?konomische Teil der Arbeit umfasst die Darstellung von Good Governance und Global Governance. Anschließend werden die Auswirkungen von ausla?ndischen Direktinvestitionen und von Energie- und Straßeninfrastruktur auf Wirtschaftswachstum und Armutsreduktion diskutiert. Ein weiterer Schwerpunkt liegt auf der Darstellung von Public Private Partnerships. Keine Fallstudie liefert einen direkten langfristigen Beitrag zur Armutsreduktion, aber sie tragen zum Wirtschaftswachstum bei. Zusammenfassend kann festgehalten werden, dass die positiven Auswirkungen von privat finanzierter Infrastruktur auf die Armutsreduktion u?berscha?tzt werden. 517 $aOeffentlich-private Finanzierung von Infrastruktur in Entwicklungslaendern und deren Beitrag zur Armutsreduktion 606 $aInternational economics$2bicssc 606 $aEconomic systems & structures$2bicssc 610 $aArmutsreduktion 610 $aBeitrag 610 $aderen 610 $aEntwicklungsländern 610 $aFallstudien 610 $aFinanzierung 610 $aGovernance 610 $aGusenbauer 610 $aInfrastruktur 610 $aÖffentlich 610 $aPhilippinen 610 $aprivate 610 $aprivate Infrastrukturinvestitionen 610 $aPublic-private partnerships 610 $aVietnam 615 7$aInternational economics 615 7$aEconomic systems & structures 700 $aGusenbauer$b Bianca$4auth$01298381 702 $aGusenbauer$b Bianca$4aut 712 02$aWirtschaftsuniversita?t Wien$4edt 801 0$bPH02 801 1$bPH02 906 $aBOOK 912 $a9910563185803321 996 $aO?ffentlich-private Finanzierung von Infrastruktur in Entwicklungsla?ndern und deren Beitrag zur Armutsreduktion$94175557 997 $aUNINA LEADER 05360nam 22007455 450 001 9910484388103321 005 20251113200328.0 010 $a3-030-54727-2 024 7 $a10.1007/978-3-030-54727-1 035 $a(CKB)4100000011739042 035 $a(DE-He213)978-3-030-54727-1 035 $a(MiAaPQ)EBC6462430 035 $a(PPN)253254876 035 $a(EXLCZ)994100000011739042 100 $a20210123d2021 u| 0 101 0 $aeng 135 $aurnn|008mamaa 181 $ctxt$2rdacontent 182 $cc$2rdamedia 183 $acr$2rdacarrier 200 10$a50 Years of Bat Research $eFoundations and New Frontiers /$fedited by Burton K. Lim, M. Brock Fenton, R. Mark Brigham, Shahroukh Mistry, Allen Kurta, Erin H. Gillam, Amy Russell, Jorge Ortega 205 $a1st ed. 2021. 210 1$aCham :$cSpringer International Publishing :$cImprint: Springer,$d2021. 215 $a1 online resource (XIII, 374 p. 63 illus., 52 illus. in color.) 225 1 $aFascinating Life Sciences,$x2509-6753 311 08$a3-030-54726-4 327 $aChapter 1. Introduction and implementation of harp traps signal a new era in bat research -- Chapter 2. Bats as Hosts of Important Unicellular Endoparasites -- Chapter 3. A global review of phylogeographic studies on bats -- Chapter 4. All the Better to Eat You With: The Legacy of James S. Findley?s Phenetic Approach to Bat Biology -- Chapter 5. Fur, wings, and flowers: development and progress on nectarivorous bat research in the last 50 years -- Chapter 6. The Winter Worries of Bats: Past and Present Perspectives on Winter Habitat and Management of Cave Hibernating Bats -- Chapter 7. Integrating physiological and behavioral traits with ontogeny, phylogenetic history, and survival and fitness to understand heterothermy in bats -- Chapter 8. Molecular biology in the evolution of bats: a historical perspective -- Chapter 9. Molecular biology in the evolution of bats: a historical perspective -- Chapter 10. The evolution of acoustic methods for the study of bats -- Chapter 11. Bats, Bat Flies, and Fungi: Exploring Uncharted Waters -- Chapter 12. Bats and the Ecological and Evolutionary Consequences of Resource Spatio-temporal Predictability (STP) -- Chapter 13. There and Back Again: Homing in Bats Revisited -- Chapter 14. A NASBR history of radiotelemetry?how technology has contributed to advances in bat biology -- Chapter 15. Bats Flying at High Altitudes -- Chapter 16. Contributions of Women and Creating a Culture of Inclusivity at the North American Society for Bat Research -- Chapter 17. Pioneers of bat habitat and resource selection -- Chapter 18. NASBR Origins 1970-2020: From an Informal Gathering to a Scientific Society -- Chapter 19. The Importance of Water Availability to Bats: Climate Warming and Increasing Global Aridity -- Chapter 20. Bats as reservoirs of viral zoonoses -- Chapter 21. Bats in temperate forests: where are the trends in bat populations? -- Chapter 22. How noise affects bats and what it reveals about their biosonar systems. 330 $aWith more than 1,400 species, bats are an incredibly diverse and successful group of mammals that can serve as model systems for many unique evolutionary adaptations. Flight has allowed them to master the sky, while echolocation enables them to navigate in the dark. Being small, secretive, nocturnal creatures has made bats a challenge to study, but over the past 50 years, innovative research has made it possible to dispel some of the mystery and myth surrounding them to give us a better understanding of the role these animals play in the ecosystem. The structure of the book is based on several broad themes across the biological sciences, including the evolution of bats, their ecology and behavior, and conservation of biodiversity. Within these themes are more specific topics on important aspects of bat research, such as morphology, molecular biology, echolocation, taxonomy, systematics, threats to bats, social structure, reproduction, movements, and feeding strategies. Given its scope, the book will appeal to the wider scientific community, environmental organizations, and government policymakers who are interested in the interdisciplinary aspects of biology and nature. 410 0$aFascinating Life Sciences,$x2509-6753 606 $aZoology 606 $aAnimal migration 606 $aBiodiversity 606 $aConservation biology 606 $aEcology 606 $aPhysiology 606 $aGenetics 606 $aZoology 606 $aAnimal Migration 606 $aBiodiversity 606 $aConservation Biology 606 $aAnimal Physiology 606 $aGenetics and Genomics 615 0$aZoology. 615 0$aAnimal migration. 615 0$aBiodiversity. 615 0$aConservation biology. 615 0$aEcology. 615 0$aPhysiology. 615 0$aGenetics. 615 14$aZoology. 615 24$aAnimal Migration. 615 24$aBiodiversity. 615 24$aConservation Biology. 615 24$aAnimal Physiology. 615 24$aGenetics and Genomics. 676 $a599.4 676 $a599.4 702 $aLim$b Burton K. 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a9910484388103321 996 $a50 years of bat research$92804372 997 $aUNINA